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Biosynthesis of Self‐Assembled Proteinaceous Nanoparticles for Vaccination

Chao Pan, Jun Wu, Shuang Qing, Xiao Zhang, Lulu Zhang, Hua Yue, Ming Zeng, Bin Wang, Zheng Yuan, Yefeng Qiu, Huahu Ye, Dongshu Wang, Xiankai Liu, Peng Sun, Bo Liu, Erling Feng, Xiaoyong Gao, Li Zhu, Wei Wei, Guanghui Ma, Hengliang Wang

2020Advanced Materials93 citationsDOIOpen Access PDF

Abstract

Abstract Recent years have seen enormous advances in nanovaccines for both prophylactic and therapeutic applications, but most of these technologies employ chemical or hybrid semi‐biosynthetic production methods. Thus, production of nanovaccines has to date failed to exploit biology‐only processes like complex sequential post‐translational biochemical modifications and scalability, limiting the realization of the initial promise for offering major performance advantages and improved therapeutic outcomes over conventional vaccines. A Nano‐B5 platform for in vivo production of fully protein‐based, self‐assembling, stable nanovaccines bearing diverse antigens including peptides and polysaccharides is presented here. Combined with the self‐assembly capacities of pentamer domains from the bacterial AB 5 toxin and unnatural trimer peptides, diverse nanovaccine structures can be produced in common Escherichia coli strains and in attenuated pathogenic strains. Notably, the chassis of these nanovaccines functions as an immunostimulant. After showing excellent lymph node targeting and immunoresponse elicitation and safety performance in both mouse and monkey models, the strong prophylactic effects of these nanovaccines against infection, as well as their efficient therapeutic effects against tumors are further demonstrated. Thus, the Nano‐B5 platform can efficiently combine diverse modular components and antigen cargos to efficiently generate a potentially very large diversity of nanovaccine structures using many bacterial species.

Topics & Concepts

BiologyComputational biologyEscherichia coliLimitingNanotechnologyMaterials scienceBiochemistryGeneEngineeringMechanical engineeringBacteriophages and microbial interactionsImmunotherapy and Immune Responsesvaccines and immunoinformatics approaches
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